Latch mechanism



Get. 7, 1958 G. E. BATCHELDER 2,854,859

LATCH MECHANISM Original Filed Feb. 17, 1954 4 Sheets-Sheet 1 INVENTOR Res E. Bm-cu ELDER ATTORNEYS Oct. 7, 1958 G. E. BATCHELDER 2,854,859

LATCH MECHANISM Original Filed Feb. 17, 1954 i 4 Sheets-Sheet 2 35 iii? (85 I N VENTOR BY W ATTORNEYS GEORGE E. BATCH ELDER.

Oct. 7, 1958 G. E. BATCHELDER 2,854,859

LATCH MECHANISM Original Filed Feb. 17, 1954 4 Sheets-Sheet a INVENTOR GEORGE E. BATCHELDER ATTORNEYS Oct. 7, 1958 G. E. BATCHELDER 2,854,859

LATCH MECHANISM Original Filed Feb. 17, 1954 4 Sheets-Sheet 4 Gaonea E. BATCHELDER ATTORNEYS INVENTOR United States Patent O LATCH MECHANISM George E. Batchelder, Pittsburgh, Pa., assignor to Rockwell Manufacturing Company, Pittsburgh, Pa., a corporation of Pennsylvania Original application February 17, 1954, Serial No. 410,975, now Patent No. 2,818,198, dated December 31, 1957. Divided and this application April 30, 1957, Serial No. 656,075

Claims. (Cl. 74-527) This invention relates to a latch mechanism for use with fluid dispensing apparatus and more particularly to improvements in such apparatus for measuring and deliveringa predetermined quantity of fluid and for automatically cutting 01f the delivery of fluid when the desired quantity has been delivered, and is a division of co-pending application Serial No. 410,975 filed February 17, 1954, now Patent No. 2,818,198, issued Dec. 31, 1957.

The invention in its preferred embodiment relates to the dispensing of large quantities of fluid at high velocity through a line having a flow control valve. Should the valve attempt to quickly and completely cut oil the flow of fluid in one single stage of closing when the predetermined quantity has been dispensed, the hydraulic hammer caused by this quick cut-ofi would result in undue shock and damage to the valve, meter and other elements in the fluid line and may break the valve latching mechanism. 7

Furthermore in such high velocity large quantity fluid flow systems a single valve capable of such quick cut-off would have to be extremely powerful and speedy in action but delicately timed for accurate control, and such a valve and its control and actuating mechanism would be expensive andrequire constant attention to maintain its accuracy. Various types of single stage closure valve as semblies have been tried for the purpose but they have been mainly ineflicient or so complicated or expensive as to prove unacceptable for practical purposes and have been discarded.

Consequently it has been proposed to provide apparatus wherein the delivery of fluid is cut off in gradual stages. For example it has been proposed that a meter in the fluid line operate a preset predetermined register mechanism which through some device such as a latch box will effect staged closing of the line. Usually this is done by closing a main valve when the greater part of the desired quantity of fluid has been delivered and continuing flow at a reduced rate through a smaller valve which is triggered at the proper time to complete the flow cut-off.

This prior two stage plural valve fluid cut-off apparatus has proved to some extent satisfactory in operation but it involves a multiplicity of small complex parts particularly in the latch mechanism for the valveand the valves used in association with such mechanism have been mechanically complex.

It has also been suggested to provide two stage closure of a single valve but such mechanisms have been complex and diflicult to maintain in accurate adjustment.

The present latch mechanism invention in a preferred embodiment provides for latching a valve in an open position and for accomplishing plural stage closing of that valve with a relatively simple uncomplicated structure. The number of parts has been reduced and the operation s'unplified as compared to structures formerly used in such mechanisms.

' With these and other considerations in view a major object ofthis invention isto provide a novel predetermim 2 ing register latch mechanism for effecting an improved multi-stage closure of a valve.

A further object of the invention resides in an improved plural stage valve latching mechanism.

A still further object resides in providing a novel latch device which includes a member movable between two limit positions and biased to one of the positions with a lever mechanism for latching the movable member in a plurality of positions between the limit positions and a tripping assembly shiftable between two positions and operable upon each successive shift from one of the two positions to the other to unlatch and relatch the latch lever mechanism and permitting an increment of movement of the movable member.

Still another object resides in the provision of a novel latch device in which a trip assembly is shiftable between two positions and coacts with a latching lever to unlatch and relatch a latch bar and the trip mechanism can be successively shifted from one position to another at least three times and for each shifting movement will actuate the latch mechanism to permit a predetermined movement of the latch bar.

With the above and other objects in view, the invention comprises the improved predetermining dispensing mechanism for fluid meters and the construction and relative arrangements of its several component parts, as will hereinafter be more fully described, illustrated in the accompanying drawings, and subsequently incorporated in the appended claims.

Figure 1 is a plan view of a general assembly of the meter, register, valve and control linkage in which the latch mechanism of the present invention is used.

Figure 2 is a front elevation of the assembly shown in Figure 1.

Figure 3 is an enlarged portion of Figure 2, certain parts being broken away to show the drive means from the meter through the latch box to the predetermining register and totalizing register.

Figure 4 is a top plan view of the latch box with the cover plate removed.

Figure 5 is an elevation view of the latch box shown in Figure 4 with a portion thereof cut away and the cover plate attached.

Figure 6 is a bottom view of the latch box shown in Figure 4.

Figures 7, 8 and 9 are top plan, rear elevation and side elevation views respectively of the latch release plate.

Figures 10, 11, 12 and 13 are top plan views of the latch bar, latch lever and release assembly showing their relative positions during the stages of latching and releasing.

Figure 14 is a top plan view of the latch lever.

Figure 15 is a view of a section taken along lines 1515 of Figure 4 showing details of the latch lever stop means.

Figures l6, l7 and 18 are views similar to Figure 15 showing the latch lever and stop means during the various stages of latch lever escapement.

GENERAL ASSEMBLY For purposes of illustration, in Figures 1 and 2 of the drawings there is disclosed a preferred general assembly of the several component units of my present invention. The fluid pressure operated meter 30 is preferably of the well known Rotocycle type, an example of which is generally by the numeral 35; Rigidly mounted on the base plate 33, as by screws 36 is a'hcusin'g'ufiit 37 which contains the settable predetermining register mechanism. The totalizing register. 38. is securedto the top of housing 37 by'suitable means" (not shown). i i

The quantity control valve unit'40 is rigidly attached to the'outlet ofthefluid nie'ter3l1 and: is operatively connected to the valve-latching'unifi35 15y arod 41, arm 43, and shaft42; Although'the illustrated assembly is preferable', thevalveju'nit 4ti m'ay alternatively be connected to. the inletside of the meter withoii't. exceeding the scope of theinvention.

The. detailsfo'f the valve. construction are. disclosed in aforementioned copendingfparentl'application. Serial 1N0]. 410,975 and disclosed. and; claimed in coperiding' applicatio'riSerial Nol' 663 {O97.filed 'onlnneff3, 1957..

'An operating handle 132 andlevei: arm 43 are removably mountedon. the splined outer;end'dfshaft. 42.' One end of latchfrodf 41. is pivdt'ally. conneetedItof the free end o'ffleverj arm v'43 as by. a clevi ,anajpmjarma emeni 150. The oppositelend or r od41is pivptedito a1latchhat'152fas by another cleyis, and: pit! arrangement indicated. at 15.4 on Figure 1.' The. Elia K421i thusi'con'nectedfwith'. the mechanismof, latch. box 35fbyI means; ar'leyer arm 43, red 41 an'cl latch'bar isaendieapiaean nl of. latchZbar. 152 will directly control openingandflosingofi the valve as m y A... .4

Latch box mechanism Thelatch box mechanism is indicated generally bythe numeral 35 in Figure. 2 andtits internal mechanism is best shown in Figures 4-18. The latch. box assembly 35 is made up of a base section 155 having. a circular side wall 156 andtransverse wall-1158 which'has a. central. circular: opening ldllfconcentriowith side wall 15,6, which constitutesa casing. Withinrthebase section adjacent to opening 160, a latching. lever 162.0fplanar. form is.pivotedly mounted at one end on a stud 164 fixed inltransverse.

wall 158. The. studamayibehadedat 165 to securethe lever 162 against removal. Lever 162.lies and. pivots in a plane parallel with. andclosely adjacent to transverse.

wall 158 and terminates at its pivoted=endin a short angularly disposed arm 166 projecting outwardly from the pivot stud 164 towards the cylindricalbody-wall156 for apurpose to be. described. Thentherendof lever.162'is indicated at 167 .andl is curved'lto. extendt from thefst'udf 168, the. transverse wall:158; of. the; casing is. provided with anaper'ture. 170 over which the' end 167. of.lever. 162 partially extends when said lever is in the position shown in Figure 4-.of the:.drawii1gs:-.correspondingto a latched valve open. position. Fixed in the leverl adjacent the pivot. stud- 16.4 and at .theopposite=sidethereof .with respect to the lever arm 166 is a stud 172 carryingalatching roller 174 for. cboperationwith the latch 152 inithe manner describeibelow; i l

The rectangular latch. ban. 1,52 is; slidably. guided. in'

notches or recessesl76inr thecylindrical body wall 156 of the base section for movement'in a path substantially normal to the pivot'axis of lever 162. Notches' 176 are'of-sucha depth as .tosupportthe bar' 152 above the transverse: wall 158 in vertical spaced relationship thereto and bar 152 is retained. in said'notchestbya latch box covenplate 178 (Figure. secured to'ithebase section by meansfxof screws I180 threadedinto' bosses 182 which extend radiallyin'ward from the side wall 156. Apin 184 (Figures .4 and 6) extends from the bottom of latchlbar 152'andfcoacts in abutting relationIwith theshortllever arm 166v when bar 152 istrnoved to theright to rock latch lever 162 in a clockwise direction. A second pin-185 is fixed to bar 152- and disposed within thelatch box for limiting its movement to the left,b y contacting the shprt leve r arni l66' which islimited by abutment of lever 162' with a pin 242 as will be explained.

In a suitably spaced relation from the pin 184, a notch or recess 186 is formed in they inner face of bar 152. Also formed in the inner face of bar 152, adjacent to notch 186, are camming surfaces 188 and 190, the surface 188 being joined with the recess 186 by means of a. bevel surface 192 while the surfaces 188 and'190 are joined together by bevel surface 194. These surfaces. and notch 186 are positioned relative to the pin 184 to receive the latch lever roller 174 in an abutting relation asthe latch bar 152 moves to the right during valve opening movement. A combined shim and wear plate 193 with end lugs 195 is disposed behind bar 152 in notches 176. The lugs 195 cooperate. with the, latch box cover 178 to retain the wear plate 193 in position. Small clips 197 are. fastened by screws to. theedges of notches L76 opposite, the wear plate,1 9 1 with plate 1 93.. enable ac curate location of latch bar. 152 .relative to the latchlever roller 17.4.' V

Felt wiper assemblies1-99 are. securedtto the outer side of. easing 'walll156 over; each notch 176 and cooperate with the latch bar 152 to prevent foreign. matterffrom entering the casing ReferringtoFigurel d two integral bosses 196.. depend from. the bottom 'oflwall. 158. Recessesare formed in bosses 196 to receive a rod20tland portions of;bosses 19.6 are. swag ed. over to retainlrod 2G0. A latch release plate 198 havingspaced apertured ears 201 is rockably mounted thereby on rod 200. between bosses 196. Spaced from said rod' 200, latch release. plate 198v carries an upstanding pin 202.that projects-through aperture in thewall 158 of'thecasingto coact with'the. end 167Jof. lever 162, as will presently appear. The plate 198 can be biased toward wallv 158, by a spring 206 attached to.a lug...208' on the plate. 198.0pposite the pivot line. from. pin. 2t)2. The other. end of the springis. anchored. to. the casing wall at 210 to norrnallyholdtheplate 198-flat=against.the bottom of wall 158fwith.the.pir1f2 02 projeetin g it hrough aperturef170 and extending. above the. upper surface of said wall. i i i i v A curved arm. 212 on plate, 1 98 extends around. one side of the opening 16.0 in tl ewall 158; agd' hgs-spaccd lugsl214 on the inner edge projegting inwardlyv over said opening. It will be evident that thqspgingg-Zlidconead s s nl lf m atdly nt? e a eme tthe and v of:leyer 162 oregainst its.b o ttom surface, de i 1, e. l ti nssit qai f z evse fil' Asbest shown in. FiguresA and,713, a rectangular. post 21 6 is also rigidly rno u ntt=.d; on -th e upper side of plate 198. at a point directlyabove;spring 296(and pro jects througharectangulan.aperture218 in the transverse Wall158. Pivoted. to the upper portion of this post by means of a pivot pin. 2 20 is a lock. arm 222.which is trapezoidalin shape; the nose section of which extends partially into the opening 218. The nose section of lock ar-m222 is normally urged into con tact withlone sideof wa a s2 ns1 ta PT 3 Z 1: s ing between a pin 22 6 on arm- 222..and.pinQZSonguide plate 1;68. V

Referring to, Figures. 15 18 the pivot-pin: 2290f. lock arm 222 is positioned relative to-lhe end.ot. arm.222,.so

that .the arm ZZZmaysWing apd clear theflrighthand side wall of opening. 218..when plate l9s is abuttingthe underside ofitransverse wall 158, hov/ever, if plate 198 is depressed against the bias of spring -206,-.p,ost 21 6. carrying lock aim222 lwill be. moved .dovvnwardly a slight distance through opening 218. and the. swinging movement .offarm.

222will then beflir riited by engagement' with the sidewall ofopening 218. Thelhead..229,.,ofi aflsteel b'olt 2 31 fasa tened through casing wall 1 58, .can...be.,usedf to. provide a wear-resistant edge abutment for opening 2l8 and is particularly desirable if the casing; 35 ris mac le of :relatively. t m te l- T e s r n t f;sp ..22. is 1 11? cient in a normal installation, to act through post 216 to bias latch release plate 198 toward wall 158, and thus the lower spring 206 can be deleted.

Formed on the extreme end of lever 162, Figures 4 and 14, diametrically opposite from the pivot pin 164 is an inclined surface 232 and suitably spaced therefrom along the outer periphery of lever 162 is a recess 230 having a similar inclined surface 234. As shownin Figure 7, the pin 202 has a notch 236 formed to receive the surfaces 232 or 234 when the pin 202 extends above the wall 158. A further inclined surface 238 (Figures 4 and 14) is formed on the inner periphery of the lever arm 162 near the surface 232 but suitably spaced rearwardly therefrom. As the lever 162 is pivoted clockwise about stud 164 by the previously mentioned coaction with latch bar 152, the surfaces 232 and 234 are successively moved past the nose sectionof the arm 222 allowing the arm 222 to hang down into the aperture 218. Further movement of the bar 152 to the right, Figure 12, will move the inclined surface 232 on the end of lever 162 away from opening 170 and out of contact with pin 202, allowing the spring 206 to urge pin 202 up into the path of the end of lever arm 162. At approximately the same time, the roller 174 on the lever 162 moves over bevelled surface 192 and into recess 186. Spring 206 then acts to rock plate 198 on the rod 204 and positions the notch 236 on pin 202 adjacent the end of lever 162. At this point the valve is in a fully opened position and when the operator releases manual control, the valve spring tends to close the valve and biases latch bar 152 to the left (Figure 4), biasing latch lever 162 counterclockwise to engage the end 232 in the notch 236 of pin 202 thereby securely latching said lever and bar 152 in set position against the action of spring 126 of valve 38. As shown in Figure 4, the surface 232 is bevelled to fit sesurely into bevelled notch 236 to prevent accidental release.

For the purpose of tripping the pin 202, a tube 240 is loosely disposed through a central opening in a boss 242 integrally formed on the cover 178 as shown in Figure 5. Tube 240 projects through central opening 160 in wall 158 where it is supported upon the lugs 214 of the plate 198. As shown in Figures 1 and 2, the latch box assembly is clamped between the base plate 33 and the upper surface of housing 31 in such a position that the bar 152 is angularly disposed with respect to the axis of the meter for attachment with rod 41 by means of the clevis 154. As viewed in Figure l, the spring 126 of valve unit 40 will tend to rotate shaft 42 in a counterclockwise direction when the valve has been latched in its open position. Therefore, when the valve has been latched in its open position, the bar 152 is urged in the direction away from the meter in Figure 1 and to the left in Fig ure 4 and the bevelled surface 192 on bar 152 abuts against roller 174, tending to urge the lever 162 in a counterclockwise direction about its pivot stud 164. Lever 162 is held in the position shown in Figures 4 and 6 by the engagement of the end surface 232 with notch 236.

The latch box mechanism is tripped to allow movement of the bar 152 to the left in Figure 4 (valve closing direction) in the first of three successive stages by depressing the tube 240. Depressing tube 240 will rock plate 198 about the axis of rod 200, Figure 16, thereby disengaging pin 202 from surface 232 on lever 162, allowing lever 162 to pivot counterclockwise about pin 164. When lever 162 is free of restraint, bar 152 'will move to the left because of the biasing action of the valve spring, roller 174 will ride up out of engagement with bevelled surface 192 on tosurface 188, causing the lever 162 to pivot in a counterclockwise direction until a point has been reached in its pivotal motion, Figures 11 and 16 where the inclined surface 238 contac the nose portion of lock arm 222, causing it to pivot about pin 220, until the angular surface of the lock arm 222 engages the righthand wall of opening 218, as viewed in Figure 16. this point, the lever 162 will be held against further pivotal movement and the bar 152 will have completed its initial stage of closing movement to the left. The roller 172 will now bear against bevel surface 194 and prevent further movement of bar 152. At the end of the first stage of movement of lever 162, recess 230 is positioned directly above opening and pin 202; however, as long as tube 240 is depressed plate 198 is rocked away from the wall 158 and pin 202 cannot extend through recess 230.

The second stage of movement, see Figures 12 and 17, is initiated by releasing tube 240 from its depressed posi tion, thus allowing plate 198 to rock about the shaft 204 moving post 216 and lock arm 222 upwardly in opening 218 until the angular surface of lock arm 222 is disengaged from the right side of opening 218. At the same time, pin 202 is moved upwardly through opening 170 to extend into recess 230 in lever 162. The bevel surface 194 on bar 152 bears against roller 174, urging the surface 238 against the arm 222 and when lock arm 222 is free of engagement with the side of opening 218, it

pivots about pin 220 against the pressure of spring 224, allowing further clockwise motion of the lever 162 until surface 234 is engaged in notch 236 of pin 202 as shown in Figure 12. At the same time, roller 174 will have ridden up on to the surface into abutting engagement with bevel surface 195, at which point bar 152 will have completed its second stage of movement to the left.

The third stage of movement of the bar is caused by again depressing tube 240, Figure 18, to rock plate 198 against the pressure of spring 206 to disengage pin 202 from surface 234 on lever 162. Lever 162 is now free to complete its counterclockwise movement about pin 164, as shown in Figure 13, allowing bar 152 to complete its third and last stage of movement to the left, thereby completely closing the main valve and the pilot valve. At this position lever 162 abuts a limit pin 243 in transverse wall 158 to prevent any further unnecessary movement.

As will be understood, the latch release plate 198 carrying pin 202, post 216, and lock arm 222 constitutes an escapement mechanism for biased latch lever 162, actuated by rocking the plate 198 by means of tube 240, and by merely incorporating additional staggered surfaces similar to 232, 234 and 238 on the latch lever 162, additional escapement steps may be realized.

The means by which the latch box mechanism just described is tripped to permit successive three-stage movement of the bar 152 and closing of the valve is within the predetermining register described in aforementioned parent application Serial No. 410,975 and described and claimed in copending application Serial No. 671,365 filed July 11, 1957.

The invention may be embodied in other specific forms without departing fromthe spirit or essential characteristics thereof. The present embodiment is therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the" claims are therefore intended to be embraced therein.

What is claimed and desired to be secured by United States Letters Patent is:

1. In a latch device, a member to be latched, means guidably supporting said member for rectilinear motion,

means connected to said member and biasing the member in one direction to an unlatched position, a control mechanism for said member, a shiftable latch release means adapted to coact with said control mechanism, means responsive to movement of said member in a second direction opposite to said one direction to move the latch release means to a first position, means responsive to movement of the latch release means to said first position for latching the control mechanism in a first position, means to move the latch release means to a second unlatch, move and relatch said control mechanism to and in a third position whereby the'said memberjis moved one more" steptoward unlatched position, meansrespon' 7 sive to a secondmovement of thelatch release means towards saidsecond position to unlatchand move saidcontro'limechanism to a fourth position wherebys'aid member ismoved to said unlatched position; 7

2 Inalatch device; a member tobelatched; means guidably supporting said member for rectilinear motion, between; two positions, a springconnected to said member biasing the same intone; direction to a. normalposition, a lever pivotally mounted on sa supporting means, said' lever having an end portion positively engaged; by said member in its movement inanjopposite direction toward a latched position to rock said levergs'ai member and lever havingcoactingmea'ns retaining said member in said latched position against the action of said spring; and an escapement, Inechanism-rockably m-ountedon said supporting means for shifting movement between afirst and second position and cooperating with said lever to releasably,,retainsaid lever in at latching position and upon successive, shifting, movements of said escapement means between said two positions to successively repositionsaidjleyer' step by step to unlatch said member in a plurality of: successiyestages,

3. In-a,lat ch device as definedin claim 2, said escapement means comprises a, carrier platevpivotallymountedon said supporting means. and, having integrally fastened thereto one fiked'and' one movable escapement 'lugadapt: ed to alternatively, coact with said lever during rocking movement of said vescapement means.

4'. In a latch device as set forth in claim 3, spring L means connected between said'carrier plate and the supportingmeans biasing said'supportingmeans,to said first position, and a manually-shiftable triptmember in bearing contactwith said carrier plate operableto' displace said carrier plate tosaid secondfposition.,

5. Ina latch device, an elongate member'to be latched, means gnid'ablysupporting said member for reciprocation between two positions, means connected tobias said member intone directionto arnormal position, a plurality of detent'means on said member in'successive-staggered relation betWeenthesides, of saidmember and; between the ends ofsaid member, a lever pivotally mounted on saidsnpporting meanseand having an end portion po'si tively,engaged by said, member in its movement in anoppositedire tron toward alatched position to rock-said lever, means,, on: said 'leveradapted to coact with one of said detentswhensaidfllever isrrock edto latched position,to,reta,in said member in latched position against the action of said biasing; means; and-means rock-ably mounted; on saidssupporting, meansfor' shifting movement between a first andseeondposition andcooperatingflwith saidlever to releasablyretain saidjleverin a latching position and upon successive shiftinggmoye'ments of said rockable, means from one of's P98110118 to the other to, permit incremental suce $1316 repositioning movements of, said leve w r by: s id. means n, i

lever is successively shifted from-eachdetefnttothe next 8 succeeding detent, to thereby permit unlatching'movement of said member in aplurality of successive" stages 6. In a latch device as d'efined' in'- claim 5; said meanson said lever-comprising aroller pivotallygcarried on said lever andadapted to bemoved into a latching relationship with-successive ones of said detents' depending upon the pivotal positionof said pivotedlever.

7. In a-latch device as defined in claim-5; said detent means comprising steppedcam surfaces disposed in the side-ofsaid member;

8. A latch devicec'omprising': a trippable'latch mechainism; a member movablebetween two'positions having a biasing means connected thereto, said member having.

means cooperating with said latch mechanism which retains said member in' one of said positions and several positions intermediate said two positions against the action of said biasing means; a shiftable means movable between two positionsand1operative1y engaging-said latch mechanism to cause said'latch mechanism to be tripped by} movement of said'shiftable means from either of'said two positions to the other position, said' latch mechanism being operable at leastltwice, when successively tripped' by movement of said shiftable means from one ofsai'd' positions to the other position andback to the first position, to reset itself after each tripping action to hold said member in successive intermediate positions, and operable during a final tripping, action to allow said :mem: her to move to its other of said two positions.

9. Apparatus as set forth in claim 8' wherein said latch mechanism comprises a latch lever and recipro'cable means carried by said shiftable means and havingtwor latchingelements adapted totsuccessiv'ely alternately engage with and hold said latch lever in at least three posi-- tions corresponding to three positions of said member.

10; Alatch box device for use in latching a flbw'control valve, comprising: a casing; means adapted to be connected with thevalve and movable between two limit positions in said casing; a first mechanism pivotedin said.

casing and engaged and moved by said first named-means. into locking engagement with said first named means when said first named meansv is moved to one of said limit positions; movably mounted spring biasedlat'ching mechanism automatically cooperating with said first mechanism to latch said first mechanism and hold said first named means in said one limit position; second means constituting, an operator member shiftable between two positions and operable when shifted to one position to engage and move said latching mechanism to a second position whereby said first mechanism. may be repositioned. to release engagement with said" first named means and reengage and hold said first named means at an intermediate position between said limit positions; said second means'being operable, when shifted back to its other position from said one position, to release and enable return of said latch mechanism to its initial position thereby allowing said first mechanism to again reposition, release engagement with, and reengage and hold said first named means at a second intermediate position between said limit positions; and said second means being, again operablerupon a further shift to said No references, cited; 

